Cation ordering in lepidolite and biotite studied by X-ray photoelectron diffraction

Ash, Lynne A.; Evans, Stephen D.; Hiorns, Anthony G.

doi:10.1180/claymin.1987.022.4.01

Cited by 7 publications

(3 citation statements)

References 9 publications

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“…The essential constancy of the Si2s/Si2p and Mg2s/Mg2p intensity ratios was first checked for each data set. Random variations of ---5% were typical, as in previous studies (Ash et al 1987(Ash et al , 1988Evans et al 1979a; 1 Derived from the mole ratios obtained from the XPS peak areas (see note 3) by: 1) normalizing so that the sum of the charges on the detected cations becomes 28, for charge balance against O10(OH)8; 2) assigning all the Si and as much of the A1 as required to fill all the tetrahedral sites; and 3) then assigning the balance of the cations to the octahedral sites. Since there are fewer than 10 cations for the 28 positive charges, there are octahedral vacancies, indicated by [~, in all the surface formulae.…”

Section: Experimental and Data Processingmentioning

confidence: 88%

“…A detailed interpretation of these XPD patterns is more difficult than it was for the micas (Ash et al 1987) because of the multiplicity of possible octahedral sites when all the possibilities for cation ordering are taken into account. However, some conclusions can be drawn simply by considering the symmetry properties of the patterns.…”

Section: Interpretation Of the Photoelectron Diffraction Patternsmentioning

confidence: 99%

“…However, information on atomic identities is not so readily achieved, and the element-specific surface spectroscopies still have an important role to play. Over a number of years we have pioneered the use of angle-resolved X-ray photoelectron spectroscopy (XPS) in studies of the micas, developing new routes to the characterization of cation ordering patterns (Adams et al 1978;Evans et al 1979a;Ash et al 1987Ash et al , 1988. The information obtained from XPS strictly relates only to the outermost few repeat units of the crystals, although for many micas there has been evidence indicating that the surface and bulk compositions are closely similar.…”

Section: Introductionmentioning

confidence: 99%

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Angle-Resolved X-Ray Photoelectron Studies of Cleavage in Chlorites

Evans

Hiorns

1996

Clays and clay miner.

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Abstract--The cleavage of two single-crystal chlorites (a clinochlore and a penninite) has been studied using angle-resolved X-ray photoelectron spectroscopy (XPS). Both minerals cleaved in regions not typical of the bulk; the composition of the clinochlore was found to be especially non-uniform. The brncitic interlayer divided evenly between the pair of new surfaces exposed for two cleaves in the clinochlore, but was partitioned unequally in two cleaves in the penninite. The differences in apparent composition between the complementary pairs of surfaces are interpreted to show a marked preference of octahedral A1 for the brucitic layer, in agreement with X-ray bulk structure refinements. For both chlorites, the layer charge was reduced in regions of easy cleavage, which also had a higher proportion of Si and less tetrahedral A1 than the bulk chlorite. The percentages of tetrahedral aluminium deduced from the XPS surface analyses agreed satisfactorily with the percentages independently determined by consideration of the magnitude of anisotropy in the X-ray photoelectron diffraction (XPD) patterns. The XPD patterns from the clinochlore for rotation about axes parallel and antiparallel to the crystallographic a-axis were identical, showing that tetrahedral ordering was absent.

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Section: Experimental and Data Processingmentioning

confidence: 88%

Section: Interpretation Of the Photoelectron Diffraction Patternsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Angle-Resolved X-Ray Photoelectron Studies of Cleavage in Chlorites

Evans

Hiorns

1996

Clays and clay miner.

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Photoelectron diffraction and surface crystallography

Grenet

Jugnet

Homberg

et al. 1989

Surface & Interface Analysis

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We report here the state of development of photoemission diffraction from core levels as a tool for the investigation of surfaces. Experimental procedures for performing reproducible and accurate photoemission diffraction curves are formulated. To this end, the merit and the limitations in the choice of different parameters, such as photoelectron kinetic energy or detection angles, are discussed in view of various applications. The discussion is largely exemplied from our experiences, as well as from those in the literature.

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X‐ray photoelectron diffraction studies of the surface chemistry of non‐stoichiometric synthetic spinel

Ash

Evans

1993

Surface & Interface Analysis

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Angle-resolved XPS data from a synthetic spinel crystal of approximate composition MgO *(3.4)AI20, are reprted and discussed. Strong x-ray photoelectron dieaction (XPD) effects were observed both in argon ion bombarded/annealed surfaces (which were grossly magnesium-deficient) and in chemically etched surfaces prepared by treatment with sodium peroxide at 480°C followed by an acid wash. Many major features of the XPD patterns could be explained using the enhanced forward scattering concept. The relative magnitudes of the XPD modulation of the photoelectron intensity suggest that no more than one-third of the aluminium occupies tetrahedral sites, in accordance with magic-angle-spinning nuclear magnetic resonance experiments, and confirm that the magnesium, in contrast, remains predominantly in the tetrahedral sites. Thin layers of magnesium, cobalt(I1) and chromium(II1) oxides deposited on the crystal surface from nitrate precursors diffused rapidly into the crystal at -llOO°C, with first-order kinetics, but the mixed-oxide surfaces so created showed no evidence of order.

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Cation ordering in lepidolite and biotite studied by X-ray photoelectron diffraction

Cited by 7 publications

References 9 publications

Angle-Resolved X-Ray Photoelectron Studies of Cleavage in Chlorites

Angle-Resolved X-Ray Photoelectron Studies of Cleavage in Chlorites

Photoelectron diffraction and surface crystallography

X‐ray photoelectron diffraction studies of the surface chemistry of non‐stoichiometric synthetic spinel

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